KR20040006190A - Heating wire coating for far infrared ray and radiating anion and silicon rubber compound the same - Google Patents

Abstract

PURPOSE: Provided is a composition for a heating cable, which has heat radiation and far infrared ray- and anion-emitting effects as well as anti-bacterial effects, simplifies an electric heating instrument and improves the energy efficiency. CONSTITUTION: The silicone rubber composition comprises a silicone rubber resin, a far infrared ray-emitting powder, an anion-emitting powder, a curing agent and a coloring agent, in the weight ratio of 64-90 : 3-15 : 3-15: 1-2 : 3-4. Particularly, the infrared ray-emitting powder is ferrite, and the anion-emitting powder is tourmaline mixed with chitosan. The heating cable comprises a heat-radiation layer(10) having at least one heat-radiating lines, and an emission layer(20) coated on the heat-radiation layer(10) with the silicone rubber composition.

Description

Silicone rubber composition that emits far infrared rays and anions and heating wire coated thereon {HEATING WIRE COATING FOR FAR INFRARED RAY AND RADIATING ANION AND SILICON RUBBER COMPOUND THE SAME}

The present invention relates to a silicone rubber composition for radiating far infrared rays and anions, and to an insulated wire coated thereon, and more particularly to radiating far infrared rays and anions due to heat generated from a heating line and radiating far infrared rays and anions with antibacterial function. It relates to a silicone rubber composition and a heating wire coated thereon.

In the related art, products generating far infrared rays and anions are disclosed in Korean Patent Application Publication No. 2001-103957 published on November 24, 2001, which is used to form tourmaline, aluminum oxide, and dioxide in forming anion and far-infrared radiation composition. A coating liquid composition is prepared by mixing a ceramic made of silicon, titanium dioxide, and the like with an antimicrobial substance made of silver salt or chitosan, an aqueous resin or urethane resin, and the composition is coated on the surface of polyurethane. It is disclosed to be used in sheets, pillows, clothing, and the like.

In addition, Japanese Laid-Open Patent Publication No. 2002-51850 (2002.2.19) discloses mixing a tourmaline and a polypropylene resin foam to form a polyester resin with an anion and using it as a shoe insole.

As described above, a composition for generating anions using tourmaline has been disclosed, and in particular, the fact that the anion comes out when heat is applied to tourmaline is that the Curie brothers in the 1880s said, "When electricity or heat is applied to tourmaline, electricity is generated. "The use of tourmaline as a component of building materials has been increasing since it has been proved to be able to generate negative ions in air conditioners." Related documents are disclosed in Korean Unexamined Patent Publication No. 2000-72113.

In addition, chitosan has a pharmacological effect that is beneficial to the human body such as antimicrobial performance, so it is obvious that it is used in various industrial fields such as medicine and bedding.The composition using the multifunctional heating device or fiber having anion release, far-infrared radiation, and antibacterial function is used. Products have been utilized, and there are many such publications disclosed in Korean Patent No. 2001-103957.

As described above, the composition combined with tourmaline and polyester is used for dishes, clothes, bedding, etc., which are not used for heat generation, but are poor in heat resistance and are not suitable for use as a coating material for heating wire.

In order to be used as a coating material for heating wires for heat generation of electric appliances such as electric mats and electric yolks, a coating material having excellent heat resistance is required, and silicone rubber is mainly used as these coating materials.

Moreover, due to the recent increase in the supply of chaff electric appliances due to changes in living environment, high-performance chaff electric appliances with far-infrared radiation function, anion radiation function, and antibacterial function have been developed and used, but they have to add a separate anion generator. The problem is included.

As mentioned above, there are compositions which do not require heat resistance, such as a composition of tourmaline and polyester, that are not in direct contact with the heat generating portion, but a composition capable of directly covering the heat generating portion due to anion generation and heat resistance. These are not disclosed, causing problems such as adding a separate negative ion generating device as described above.

The present invention has been made in order to solve the above problems, by covering the heating wire to radiate far infrared rays and anions by the heat emitted from the heating wire, and by providing an insulated wire having a structure having an antibacterial function, a separate negative ion generating device It is an object of the present invention to provide a silicone rubber composition that emits far infrared rays and anions so as to eliminate the above, and a heating wire coated thereon.

In order to achieve the above object, the present invention provides a composition for radiating far-infrared rays and anions, as well as antimicrobial functions, including silicone rubber resins, far-infrared radiation powders for improving thermal conductivity and radiating far infrared rays to silicone rubber resins thereof; An anion spinning powder having an anion and an antibacterial function, a curing agent for curing the silicone rubber resin, a far infrared ray spinning powder, an anion spinning powder, and a coloring agent for forming a color, respectively, are 64 to 90: 3 to 15: 3 to 15: 1 It is characterized by mix | blending in the weight ratio of -2: 3-4.

The far-infrared radiation powder is characterized in that the ferrite is a solid solution in which impurities are dissolved in iron of a stable body-centered cubic crystal below 900 ° C.

The far-infrared radiation powder is characterized in that iron (Fe) is mixed 60 to 80%, silicon dioxide (SiO ₂ ) 20 to 40%.

In addition, another object of the present invention for achieving the above object is a composition for radiating far infrared rays and anions, as well as antimicrobial function, for improving the thermal conductivity and radiating far infrared rays to silicone rubber resins and silicone rubber resins thereof. Far-infrared radiation powder, anion radiation powder having an anion and antibacterial function, a curing agent for curing the silicone rubber resin, a far-infrared radiation powder, anion radiation powder, and a coloring agent for color development are respectively 64 to 90: 3 to 15: It is mix | blended in the weight ratio of 3-15: 1-2: 3-4, It is characterized by the above-mentioned.

1 is a structural diagram showing a heating wire radiating far infrared rays and anions according to the present invention

2 is a structural diagram showing a heating wire radiating far infrared rays and anions according to another embodiment of the present invention;

3 is a structural diagram showing a heating wire radiating far infrared rays and anions according to another embodiment of the present invention

* Description of the symbols for the main parts of the drawings *

10: heating layer 20: heating layer

30: silicone rubber resin layer 40: braided layer

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention will be described in more detail.

1 to 3 illustrate a heating wire that emits far infrared rays and negative ions according to the present invention. First, the composition for coating the heating wire of the heating wire will be described above. And the silicone rubber composition that emits anions is made of silicone rubber resin and ferrite, which is a solid solution in which alloy elements or impurities are dissolved in iron of a body-centered cubic crystal that is stable at 900 ° C. or lower to improve thermal conductivity and radiate far infrared rays to silicone rubber resin thereof. Powdered far-infrared radiation powder, anion spinning powder mixed with tourmaline 60-80%, chitosan 20-40% to have an anion and antibacterial function, and curing the silicone rubber resin, far-infrared radiation powder, anion spinning powder Weight of the curing agent and the coloring agent for forming the color are 64 to 90: 3 to 15: 3 to 15: 1 to 2: 3 to 4, respectively. Rate achieved in combination.

Meanwhile, the far-infrared radiation powder of the silicone rubber composition of the present invention is a ferrite capable of improving thermal conductivity and emitting far-infrared rays as described above, but is not limited thereto, and the far-infrared radiation powder is 60 to 80% of iron (Fe). , Silicon dioxide (SiO ₂ ) may be 10 to 20%, jade 10 to 20%, and also mixed as described above, that is, iron (Fe) 60 to 80%, silicon dioxide (SiO ₂ ) Is mixed with 10-20% of jade and 10-20% of jade, and the addition of banbanite is 60-80% of iron (Fe), 7-15% of silicon dioxide (SiO ₂ ), 7-15% of jade, and banban 6 to 10% may be mixed. The anion spinning powder is 60 to 80% tourmaline and 20 to 40% chitosan as described above, but 20 to 40% tourmaline and 60 chitosan. You may mix at -80%.

The preparation of the silicone rubber composition according to the present invention is composed of the following process steps.

That is, the waste light that improves thermal conductivity and emits far infrared rays, and the tourmaline, which emits a large amount of anions, and the chitosan with antimicrobial function are pulverized over a predetermined mesh, and the tourmaline powder and the chitosan powder are 4: 1 and Mix 3: 3 or 1: 4 and 2: 3. At this time, the particle size is 1 to 20 µm, and usually 3 to 6 µm is appropriate.

Mixing of the powders described above uses a kneader commonly used in the art.

The kneaded powder is mixed with a silicone rubber resin to perform a mixing step to uniformly disperse the powder using a roller mixer commonly used in the art. The temperature of the roller during the roller operation at this time is 50 ℃ or less, suitably maintains 50 ℃ to 48 ℃, the working time is appropriate for 4 minutes to 5 minutes, which can be changed depending on the working conditions.

The mixing ratio of the kneaded powder and the silicone rubber resin is the far-infrared radiation powder (ferrite) kneaded with the silicone rubber resin, the anion spinning powder (torumaline, chitosan), and silicone rubber resin that radiate anion and have antibacterial function. Hardeners commonly used in coalescence (in the present invention, a colorant included to determine the color of the commercialized peroxide cured curing agent and silicone rubber resin (In the present invention, Fe ₂ O ₃ is used as a synthetic resin colorant, The pigment ratio can be selected according to the needs of those skilled in the art), and a weight ratio of 76: 10: 10: 10: 1: 1 is suitable.

However, as a result of the present inventor's examination through a number of tests and analyzes, in the field of using silicon coated heating wire, the ranges satisfying the anion emissivity and antimicrobial performance are the silicone rubber, far infrared radiation powder, anion radiation powder, curing agent, It can be seen that the ratio of the coloring agent may vary from 60 to 90 silicone rubber resin, 3 to 15 far-infrared radiation powder, 3 to 15 anionic radiation powder, 1 to 2 curing agent, and 3 to 4 coloring agent.

Table 1 below is one embodiment of the present invention, but the present invention is not limited to one embodiment of the silicone rubber composition that emits far-infrared radiation.

TABLE 1

division Addition amount (kg) Remarks Silicone rubber 76 Far Infrared Radiation Powder 10 Anion Spinning Powder 10 Hardener 1.2 Coloring Agent (Fe ₂ O ₃ ) 3 Total amount 100.2

The silicone rubber composition prepared as described above was measured by far from the black body using the FT-IR Spectrometer FT-IR spectrometer in the Korea Institute of Materials Testing, it can be seen that far-infrared radiation as shown in Table 2.

TABLE 2

Emissivity (5-20㎛) Radiation energy (W / ㎡) 0.903 3.64 × 10²

As shown in Table 2, it can be seen that the composition according to the present invention is a silicone rubber composition that emits far infrared rays.

In addition, as a result of testing the silicone rubber composition prepared as described above in the Korea Building Materials Testing Institute, the number of anions generated and the antibacterial rate are shown in Table 3, and the equipment used is an air ion counter of Alpha Lap.inc. The number of anions was measured using the antimicrobial activity was measured by the ATCC 6538 method.

TABLE 3

Negative ion radiation count (pcs / cc) Antibacterial rate 400-600 90-95

As shown in Table 3, the composition according to the present invention was found to be a silicone rubber composition that not only generates anions but also emits anions with antibacterial function.

Hereinafter, the heating wire of the present invention coated with a heating wire with the above-described composition will be described in detail with reference to the accompanying drawings.

1 is a structural diagram showing a heating wire radiating far infrared rays and anions according to the present invention.

Conventional methods for producing exothermic wires in the art using the above compositions, i.e., Published Patent Publication Nos. 1995-5500 (published on May 1, 1995), 2000-58641 (2000.5.1) and wire manufacturers By a known method in the art, such as a method for manufacturing a synthetic resin insulated wire, a vinyl insulated wire utilized as a method, the wires such as nichrome wire, carbon wire, etc. are combined or aggregated to form a heat generating layer 10, which is mounted on an electric wire extruder. The extruder was introduced into the extruder to form the radiation layer 20 coated with the silicone rubber composition described above, and extruded at an extrusion temperature of 200 to 250 ° C. to produce a coated heating wire.

On the other hand, the heating wire of the present invention, that is, to direct coating the heating wire with a silicone composition having an antibacterial function as well as radiating the far infrared rays and anions, as shown in Figures 2 and 3 attached to the heating wire Between the 10 and the radiation layer 20 may be coated with a silicone rubber resin so that the silicone rubber resin layer 30 is formed,

In addition, a structure in which the braided layer 40 in which tin-plated copper wire is braided is further coated to block the magnetic field between the silicone rubber resin layer 30 and the radiation layer 20.

The above embodiment merely illustrates some types of heating wires coated with the silicone rubber composition that emits far infrared rays and anions, and heating wires having a structure in which the heating wires are coated or the wires are allied or assembled to meet the needs of those skilled in the art. Therefore, it can be modified into various structures.

As described above, by using a composition obtained by mixing ferrite, tourmaline, and chitosan powder that emits far infrared rays and anions into a silicone rubber resin, it is used as a heating wire coating material for a heating apparatus that requires far infrared rays and anion radiation and antibacterial function. In order to radiate far infrared rays and negative ions by providing a composition that can be used as a heating wire coating agent that not only generates heat and far infrared rays and negative ions at the same time, but also generates antibacterial effects, without having to install separate anion generators and antibacterial filters. It provides the effect of simplifying the structure and increasing energy efficiency.

Claims (14)

In the composition that emits far infrared rays and anions, and also has an antibacterial function, Silicone rubber resin, Far-infrared radiation powder for improving thermal conductivity and radiating far infrared ray to its silicone rubber resin, Anion spinning powder having anion and antibacterial function, Curing the silicone rubber resin, far-infrared radiation powder, anion spinning powder A silicone rubber composition for emitting far-infrared rays and anions, wherein the curing agent and the coloring agent for forming a color are blended in a weight ratio of 64 to 90: 3 to 15: 3 to 15: 1 to 2: 3 to 4, respectively. . The method of claim 1, The far-infrared radiation powder is a silicone rubber composition for emitting far-infrared rays and anions, characterized in that the ferrite is a solid solution in which impurities are dissolved in iron of stable body-centered cubic crystals at 900 ° C. or lower. The method of claim 1, The far-infrared radiation powder is a silicone rubber composition for radiating far infrared rays and anions, characterized in that iron (Fe) is mixed 60 to 80%, silicon dioxide (SiO ₂ ) 20 to 40%. The method of claim 1, The far-infrared radiation powder is a silicone rubber composition for emitting far-infrared rays and anions, characterized in that iron (Fe) is mixed 60 to 80%, silicon dioxide (SiO ₂ ) 10 to 20%, jade 10 to 20%. The method of claim 4, wherein The far-infrared radiation powder contains 60-80% of iron (Fe), 7-15% of silicon dioxide (SiO ₂ ), 7-15% of jade, and 6-10% of elvan. Spinning silicone rubber composition. The method of claim 1, The anion spinning powder is characterized in that any one of the mixture of tourmaline 60 to 80%, chitosan 20 to 40% or tourmaline 20 to 40%, chitosan 60 to 80%. Silicone rubber composition. In constructing a heating wire in which far infrared rays and negative ions can radiate, A heat generating layer 10 having at least one heating line, the heat generating layer 10 having a silicone rubber resin, a far-infrared radiation powder for improving thermal conductivity and radiating far infrared rays to the silicone rubber resin, and anion and antibacterial function The anion spinning powder, the silicone rubber resin, the far-infrared spinning powder, the curing agent for curing the anion spinning powder, and the coloring agent for forming the color are 64 to 90: 3 to 15: 3 to 15: 1 to 2: 3 to 4, respectively. An exothermic wire for emitting far infrared rays and anions, comprising a radiation layer 20 coated with a silicone rubber composition formulated in a weight ratio of. The method of claim 7, wherein The far-infrared radiation powder is a heating wire that emits far-infrared and negative ions, characterized in that the ferrite is a solid solution in which impurities are dissolved in iron of stable body-centered cubic crystal at 900 ℃ or less. The method of claim 7, wherein The far-infrared radiation powder is iron (Fe) 60 to 80%, silicon dioxide (SiO ₂ ) is a heating wire for emitting far infrared rays and anions, characterized in that 20 to 40% mixed. The method of claim 7, wherein The far-infrared radiation powder is iron (Fe) 60 ~ 80%, silicon dioxide (SiO ₂ ) 10 ~ 20%, octane 10 ~ 20%, characterized in that the heating wire for emitting far infrared rays and anions. The method of claim 7, wherein The far-infrared radiation powder contains 60-80% of iron (Fe), 7-15% of silicon dioxide (SiO ₂ ), 7-15% of jade, and 6-10% of elvan. Radiant heating wire. The method of claim 7, wherein The anion spinning powder is characterized in that any one of the mixture of tourmaline 60 to 80%, chitosan 20 to 40% or tourmaline 20 to 40%, chitosan 60 to 80%. Heating wire. The method of claim 7, wherein The heating wire for emitting far-infrared and negative ions, characterized in that the silicone rubber resin layer 30 is further coated between the heating layer (10) and the emitting layer (20). The method of claim 13, Radiating far-infrared rays and negative ions, characterized in that the braided layer 40 is further braided with tin-plated copper wire to block the magnetic field between the silicone rubber resin layer 30 and the radiation layer 20 Heating wire.